Apparatus for building roads



March 26, 1940. .A. s. MILLIKIN APPARATUS FOR BUILDING ROADS Filed Dec 25, 1938 INVENTOR" Arno/d 5 Mil/ik/n. t m/ux ATTORNEYS 35 vided for spreading the discharged material latadvances. [A pairof forwardly diverging gather- 35 Patented Mar. 26, 1940 v i o 4 a i 2,195,221 I APPARATUS non BUILDING ROADS Arnold S. Millikin, Columbus, Ohio, assignor to The Jaeger' Machine Company, Columbus, Ohio, a corporation of Ohio Application December 23, 1938,Serial No. 247,439 4 Claims. (01.. 94-40) My invention relates to apparatus for building windrow. The windrow will be a high windrow of roads. It has to 'do,.more particularly, with a large cross-sectional area and will be of much machine which is particularly adaptable to buildgreaterarea than it would be possible to produce ing low cost roads or retreading roads with such by merely discharging it from the rear end of the material as bituminous mixtures or otherrelamixing chamber. This unit can be readilyat- 1 tively low cost materials now commonly used. tached to the mixing unit after the molding and It relates more. specifically to a machine for passfinishing unit is detached therefrom. ing through materials previously applied to or The preferred embodiment of my invention is forming a part of the surface to be treated which illustrated in-the accompanying drawing wherer scoops up such material, thoroughly'mixes it and in similar characters of reference designate cor- 1o then deposits it on the surface'behind the marespondingparts and wherein:

chine. Figure 1 is a plan view of a machine con- In the co-pending application, Joseph H. Mosel, structed according to my invention.

Serial No. 139,230, filed April 26, 1937, there is Figure 2 is a side elevationof the machine UNITED STATES AT-ENroFFIcE;

' disclosed a machine which is composed of two shown in Figure 1.. I 15 units which operate in conjunction with each Figure 3 is a transverse section taken substanother. One of these units embodies a mixing .tially along line'3-3 of Figure 2. I and spreading unit which thoroughly mixes the Figure 4 is aperspective view of the rear pormaterial,-which has been previously applied to or tion of the mixing troughshowing the material- 2 0 forms a part of the surface to be treated, and receiving conveyor inv association therewith. which spreads the material across the surface Figure5 is a transverse section taken substanto be covered. This unit embodies a mixing tially along line 55 of Figure ,2. chamber suspended from the main framework. ,With reference to the drawing, I have illusand having a pair of cooperating longitudinally trated a machine which embodies a mixing unit I. extending pugmills disposed therein. At the This mixing unit I'is identical with the mixing 25 forward end of the mixing chamber, means. is unit disclosed in'said co-pending application S. N. provided for gathering in material and slightly 139,230, and need not be described in detail. It *raising it from the surface and directing itinto is supported on a pair of crawler tractor units I. the mixing chamber. As the machine advances, Themixing trough 8 is suspended from the frame the material passes rearwardly through the mix- .of the machine and has a pair of longitudinally 3o ing chamber and finally is discharged on the sur-' extending 'pugmills 2| disposed therein. A rearface at the rear of the chamber. With the mawardly and upwardly inclined plate 28 is pro-- chine disclosed in said co-pending application, a videdat the forward end of the mixing trough transversely disposed spreading member is profor raising the material thereinto as the machine erally of the surface. A second unit is associated g W n 8. s provided for directing ar with the mixing and spreading unit which emterial into the forwardend of the mixing trough. bodies runners anda transversely extending ,As described in said co-pending application, as strike-01f member which finish and mold the mathe machine moves forwardly the material, will terial to form alayer of slab therefrom. be guided into the forward end of the mixing 40 In some instances it is desirable that thematrough. It will be carried rearwardly through chine gather the material from the surface, thorthe trough by the pugmills 2i and as it. passes oughly mix it and then discharge it at the rear through the trough it will be thoroughly mixed.' of the machine in the form of a high windrow It will be discharged from the rear end of the of large cross-sectional area without spreading trough. x

or finishing it. For example, this would be de- However,. in the present instance, instead of sirable when the mixed material must be aerated providing a screw spreading member (correprior to laying out or where it is desirable to have spending to member 53 of said co'pending' appli-' the material seta while before laying out. Therecation) disposed behind the mixing trough for fore, the present invention relates to a unit which receiving and spreadingthe mixed material and can be attached to the mixing unit of the'maa finishing and molding unit (corresponding to v chine disclosed in said co-pending application unit 201? said co-pending application), I provide a and whichwill receive the material from the mixconveyor unit I I0 which receives the mixed maing chamber and will deposit it on the surface terial, raises it upwardly and then discharges it at the rear of the machine in the form of a. onto thesurface at therear of themachine to form a windrow therefrom, This conveyor unit may be readily attached to the mixing unit I of the machine of said co-pending application merely by removing the finishing and molding unit and the screw spreading member 53.

As shown in the drawing, the conveyor unit H embodies a pairof side beams III whichare suitably secured together in laterally spaced relationship. These beams III extend'rearwardly and are substantially horizontally disposed. Similar beams I I2 are rigidly secured tothe rear ends of the beams III and extend rearwardly and upwardly. The beams III and H2 and the connecting means therefor serve as a supporting frame for the conveyor unit. A belt conveyor is supported on this frame. I This belt conveyor emures 3 and 5, each edge of the belt is secured at I I4 to an endless chain I 15. The belt I I3 is preferably of a suitable flexible material such as rubber or fabric. The belt rests and slides over a plate IIG which will prevent saggingthereof. The plate H6 is supported at each edge by a plate H'I which is secured to rails H8 at each side of the conveyorupon which the upper flight of the chain H will rest. In order to prevent the material from reaching the chain H5, a metal guard H9 is provided at' each side of the conveyor adjacent the belt. This guard embodies a horizontal portion I20 which overlies the chain and a substantially vertical but outwardly inclined portion I2I which keeps the materials from falling off the conveyor belt. A guard I22 is secured to the lower edge of the portion I2I of guard H5. The guard I22 is made of the same material as the belt H3 and its lower edge rests on the belt H3. Thus, material will be prevented from'reaching the chain H5. The portion I20 of the guard H9 may be welded or otherwise secured to the upper edge of the beam I II and H2.

The chains H5 pass over sprockets I23 which rotate freely on a transversely extending shaft I24 mounted on the forward ends of the beams III. The shaft I24 is disposed in bearing members I25 which are adjustable inslots I23 in order to tighten or-loosen the chain H5. The shaft I24 also carries a roll I21 around which the belt H3 passes. At the angle where the beams IH and H2 are joined together, idler.

sprockets I28 are provided ateach side of the conveyor in order to change the course of the chain I I5. As illustrated in Figure 3,'the sprocket I28 is disposed within a housing above the chain a portion of which is formed by the guard H9. At the upper and rear ends of the beams H2 a shaft 129 is rotatably supported. This shaft carries sprockets I 30 around which the chains H5 pass and also carries a'roll I3I around which the belt passes.

Adjacent the lower ends of the beams H2, as indicated in Figure 5, bearing members I32 are provided which are secured to the beams H2. These bearings I32 receive a transversely extending shaft I33.- The rear ends of the beams 4 of the mixing unit Iare provided with depending bracket plates I34. These plates I34 carry bearing. member I35 on their lower ends through which the shaft I33 passes. The entire weight of the conveyor unit HE] is supported on. the shaft I33 which in turn will suspend the unit from the beams 4. i The greater portion of the weight of the unit H ii is below the shaft I33. This will tend to tilt the forward ends of the beams I I I downwardly. In order to prevent this,

the forward ends of the beams III are provided with forwardly extending bars I36 which have their rear ends welded as at I31 to the upper edges of the beams III. The forward ends of these bars I36 will rest on the upper surface of the bottom of the mixing trough 8. The forward end of the conveyor unit is provided with a funnel portion I38 which extends into the mixing, trough. Thus, the material will readily pass from the rear end of the mixing trough into the forward end of the conveyor unit.

The conveyor unit is driven by means of a chain and sprocket drive I40 from the drive shaft 64 on .the unit I. The drive M0 drives the shaft I33. The shaft I33 in turn drives the shaft I29 )3 by'means of a chain and sprocket drive MI. bodies an endless belt H3; As indicated in Fig- Thus, the conveyor is positively driven.

It will be apparent that the conveyor unit may be readily attached to or removed from the unit I'. To attach it it is merely necessary to move the conveyor into position with the bars I36 resting on the bottom of the mixing trough. Then the rear end of the conveyor is elevatedbetween the brackets i 34, and the shaft I33 passed through the aligning bearings I32 and I35. The conveyor will then be supported in position. To remove the conveyor unit it is merely necessary to re-- move the shaft I33. When the conveyor unit is removed, if desired the spreading member 53 of the machine of said co-pending application may be attached to the pivot pins 55 in the manner described in said application and the molding and finishing unit may be attached to the During operation of the machine, the conveyor and the pugmills are driven. at a much higher rate of speed than the speed of movement of the machine along the surface to be treated. For this purpose thegear unit 55 is of such a type and is connected to shaft 54 in such a manner that the shaft will be driven at a higher rate of speed than the shafts G2 which drive the crawler elements 1. Consequently, the conveyor will produce'a high windrow of a large cross-section. The windrow will be much larger and higher than that. which could be produced merely by discharging from the mixing trough. Thus, the material of the windrow will be in'such quantity that it later can be spread over a greater width of surface. 7

It will be apparent that the conveyor is of such a nature that itmay be readily attached to or removed from the unit I with a minimum amount of trouble;

. Various other objects and advantages will be apparent from the preceding description, the drawing and the following claims. I

- Having thus described fmy invention, What I claim is:

;-1...A road-building machine for receiving and mixing-material disposed on the surface to be treated' comprising a frame mounted on'traction means, ,a longitudinally extending mixing comchine advances, a'longitudinally extending mix-.

material being adapted to pass from therear ing member disposed in said compartment, mixed material being adapted to pass from the rear of said compartment, and means located adjacent the rear of said compartment to'enable the machine to discharge a windrow of mixed material of greater cross-section than the cross-sectional area adjacent the discharge end of said com partment, said means comprising a conveyor extending upwardly and rearwardly,'and means for driving said conveyor and said traction means, said last-named means serving to drive the conveyor at a higher rate of speed than the traction means. 1

2. A road-building machine for receiving and mixing material disposed on the surface to be treated comprising a frame mounted on traction means, a longitudinally extending mixing compartment carried by the frame in spaced relationship to the surface over which the machine will pass, means for causing the material to enter the front end of said compartment as the machine advances, a longitudinally extending rotatable mixing and conveying member disposed in said compartment which will mix the material and will feed it rearwardly through the compartment as the machine advances, mixed material being adapted to pass from the rear end of said compartment, and means located adjacent the rear end of said compartment to enable the machine to discharge a windrow of mixed material of greater cross section than the cross-sectional area adjacent the discharge end of said compartment, saidmeans comprising a conveyor for receiving the material discharged from said compartment and extending upwardly and rearwardly, and means for driving said traction means, said mixing and conveying member and said conveyor, said means serving to drive the conveyor and the mixing and conveying member at a higher rate of speed than the traction means.

3.'A road-building machine for receiving and mixing material disposed on the surface to be treated comprising a frame mounted on traction means, a longitudinally extending mixing compartment carried by the frame in spaced relationship to the surface over which the machine will pass, means for causing the material to enter the front end of said compartment as the machine advances, a longitudinally extending rotatable mixing and conveying member disposed in said compartmentwhich will mix the material and will feed it rearwardly through the compartment as the machine advances, mixed the machine.

end of said compartment, and means located adjacent the rear end of said compartment to enable the machine to discharge a windrow of mixed material of greater cross-section than the cross-- sectional area adjacent the discharge end of said speed that the material will be fed through the mixing compartment at a higher velocity than the velocity of movement of the machine, said means also serving to drive the conveyor at such a rate that it will handle the material discharged from said compartment.

4. A road-building machine for receiving and mixing material disposed on the surface to be I treated comprising a frame mounted on traction means, a longitudinally extending mixing compartment carried by the frame in spaced rela-- tionship to the surface over which the machine will pass, means for gathering a mass of material and for causing the material to enter the front end of said compartment as the machine advances, a longitudinally extending rotatable mixing and conveying member disposed in said compartment which will mix the material and will feed it rearwardly through the compartment as the machine. advances, mixed material being adapted to pass from the rear end of said com.-

partment, and means located adjacent the rear end of said compartment to enable the machine to discharge a windrow of mixed material of greater cross-section than the cross-sectional area adjacent the discharge end of said compartment, said means comprising a conveyor for receiving the material discharged from said compartment and extending upwardly andrearwardly, and means for driving said traction means,

said mixing and conveying member and said conveyonsaid means serving to drive the mixingand conveying memberand the conveyor at such a rate of speed that the material will be fed through the mixing compartment and will 'be moved along the conveyor in less cross-sec- ARNOLD s. lVlILLIKIN. 

